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| Glavni avtor: | |
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| Format: | Recurso digital |
| Jezik: | angleščina |
| Izdano: |
Zenodo
2026
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| Teme: | |
| Online dostop: | https://doi.org/10.5281/zenodo.19929111 |
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- <p>Biological emergence is geometrically admissible before it is chemically expressed.</p> <p>Within the Panspatial Genesis framework, life is not an accidental late product of molecular complexity alone, but is the adaptive expression of a deeper closure architecture.</p> <p>Life becomes possible when coherence concentration generates a geometry capable of torsion, chirality, boundary formation, and gradient preservation. This geometry is identified as <strong>Finsler Coherence Hyperfractal Phase (FCHP) </strong>geometry, the structured geometry induced by coherence gradients, directional concentration, torsional flow, chiral asymmetry, and emergent boundary closure.</p> <p><br>FCHP is not an arbitrary geometric supplement added to ordinary space. Rather, FCHP is derived from coherence concentration itself.</p> <p>As coherence moves from distributed continuum toward localized closure, gradients produce curvature, anisotropic flow produces directionality, twisting flow produces torsion, stabilized torsion produces chirality, and stabilized concentration produces boundary.</p> <p>This generative sequence allows FCHP to serve as the geometry of biological admissibility: the geometry in which coherence can become chiral, bounded, gradient preserving, and ultimately life-capable.</p> <p><br>The infratier sequence is then interpreted as the dimensional reduction pathway through which this admissibility becomes structured. The 3.14D coherence-curvature equilibrium is treated as a pre-generator gateway rather than a generator algebra.</p> <p>At the 3.0 threshold, stable spatial orientation and cyclic phase closure co-emerge as SO(3) ⊕ U(1).</p> <p>At the 2.85 infratier, SU(2) expresses torsional, chiral, spinorial-bivector relation. At the 2.70 infratier, SU(3) expresses confinement, boundary completion, and chemical projectability. Together these form a fifteen-generator life admissibility stack:<br>U(1) ⊕ SO(3) ⊕ SU(2) ⊕ SU(3), 1 + 3 + 3 + 8 = 15.</p> <p>The paper further proposes that SU(4) should not be read as a fourth force gauge parallel to U(1), SU(2), and SU(3), but as the higher coherence envelope of this fifteen-generator domain.</p> <p>SU(4) supplies the algebraic horizon, while the decomposed 1 + 3 + 3 + 8 stack preserves the functional distinctions required for life: phase, space, chirality, boundary, confinement, and gradient regulation.</p> <p>Atomic Continuum Ontology (ACO) is identified as the decisive transition regime in which continuum geometry becomes capable of atomic embodiment. Life is therefore chemically expressed, but geometrically admitted.</p> <p>Keywords</p> <p>FCHP geometry; Panspatial Genesis; infratier reduction; biological emergence; life-admissibility; closure ontology; coherence concentration; Atomic Continuum Ontology; torsion; chirality; boundary; gradient retention; SO(3); U(1); SU(2); SU(3); SU(4); closure mathematics; coherence reversal.<br><br></p>